KR100900476B1 - Mobile communication device and battery recharge method thereof - Google Patents

Abstract

The mobile communication terminal provided herein includes an antenna for receiving a control signal from the outside; A SIM card for rectifying the energy of the control signal received from the antenna; And a battery charged by the rectified energy.

Description

Mobile terminal and its battery charging method {MOBILE COMMUNICATION DEVICE AND BATTERY RECHARGE METHOD THEREOF}

1 is a block diagram schematically illustrating a mobile communication terminal according to the present invention.

2 is a block diagram showing a data transmission and charging process of a mobile communication terminal according to the present invention.

3 is a block diagram showing another embodiment of a mobile communication terminal according to the present invention.

Explanation of symbols on the main parts of the drawings

100: terminal body 110: SIM card

120: CPU 200: battery pack

210: RF antenna 220: battery cell

300: RF reader 310: antenna

320: transmitter 330: receiver

340: transmission and reception control unit 400: host

410: display 420: processor

The present invention relates to a mobile communication terminal, and more particularly, to a mobile communication terminal capable of charging a battery wirelessly.

A mobile communication terminal is a portable device that can transmit and receive voice, text, and video data wirelessly, such as a personal communication service (PCS) terminal, a personal digital assistant (PDA), a smart phone, and a wireless LAN terminal. Means.

Recent mobile communication terminals have a smart card. Smart cards include a microprocessor, an operating system, a security module, and a memory. This allows smart cards to handle more complex tasks than traditional magnetic cards.

Smart cards are significantly smaller in size than conventional magnetic cards, but their data storage capacity is over 1,000 times larger. It also has excellent stability, so your data is safe. Therefore, electronic money, credit cards, debit cards, and public phone cards are gradually being replaced by smart cards from existing magnetic cards.

Smart cards are classified into contact and contactless smart cards according to the method of inputting and outputting data. The contact card is inserted into the RF reader and physically connected to the RF reader. Data is exchanged through the contacts between the contact card and the RF reader.

Contactless cards do not require a physical connection with the RF reader. When the contactless card is located within a certain distance of the RF reader, an induced current is generated in the coil embedded in the card. The contactless card uses inductive current to exchange data wirelessly with the RF reader.

Smart cards are also used to identify subscribers to provide roaming services. Smart card for subscriber identification includes a subscriber identity module (SIM) card, a universal subscriber identity module (USIM) card, a user identity module (UIM) card, a removable user identity module (RUIM) card, and the like.

As is widely known, in the European system of GSM (Global System for Mobile communication), a SIM card is used to confirm subscribers. The SIM card stores information about the subscriber. When the mobile terminal is turned on, the user information on the SIM card is transferred to the telecommunications company over the network. Once approved for use by the telecommunications company, the mobile communication terminal can be used.

In addition to these functions of the SIM card, as the capacity of the SIM card increases, it is possible to store a large amount of multimedia data on the SIM card. This means that the SIM card can be used as a portable storage device. The multimedia data stored in the SIM card may be played on the mobile communication terminal or transmitted to an external host for replay. An external host (for example, a personal computer, etc.) generally has better performance than a mobile communication terminal, so that multimedia data can be edited and played back more quickly and conveniently.

The mobile communication terminal is supplied with operating power from a portable battery. Typically the battery is charged by a contact type charger. Specifically, the battery is charged by connecting the plus and minus terminals of the battery to the plus and minus terminals of the charger, respectively.

However, in such a contact method, the connection between the charger and the battery may be poor due to the foreign matter or corrosion of the connection terminal. In addition, when charging using a separate cable, if the cable is not prepared there is a problem that can not charge the battery.

On the other hand, the above problems do not occur in the non-contact method.

Accordingly, there is a need for a mobile communication terminal capable of charging a portable battery of a mobile communication terminal while simultaneously transmitting and receiving data using a SIM card and an RF loop antenna.

An object of the present invention is to provide a mobile communication terminal capable of charging a battery in a contactless manner.

Exemplary embodiments of the present invention include an antenna for receiving a control signal from the outside; A SIM card for rectifying the energy of the control signal received from the antenna; And it provides a mobile communication terminal comprising a battery that is charged by the rectified energy.

In exemplary embodiments, the control signal is used to request the output of data stored by the SIM card.

In example embodiments, the antenna is included at an edge of the battery.

Other exemplary embodiments of the present invention include an antenna for receiving a control signal from the outside; A SIM card communicating via the antenna; A rectifier for rectifying the energy of the control signal received from the antenna; And it provides a mobile communication terminal comprising a battery that is charged by the rectified energy.

In exemplary embodiments, the control signal is used to request to output data stored by the SIM card.

In example embodiments, the antenna is included at an edge of the battery.

In example embodiments, the rectifier is included in the battery.

Still another exemplary embodiment of the present invention provides a method of charging a battery of a mobile communication terminal including a SIM card and a battery, the method comprising: receiving an RF control signal; Rectifying the energy of the received RF control signal; And charging the battery with the rectified energy.

In exemplary embodiments, the control signal is used to request the output of data stored by the SIM card.

In exemplary embodiments, the RF control signal is rectified by the SIM card.

In example embodiments, the RF control signal is rectified by a rectifier built in the battery.

Still other exemplary embodiments of the present invention include a mobile communication terminal; An RF reader configured to communicate with the mobile communication terminal; And a host configured to process data transmitted and received through the RF reader, the mobile communication terminal comprising: an antenna for receiving a control signal from the outside; A SIM card for rectifying the energy of the control signal received from the antenna; And a battery charged by the rectified energy.

In example embodiments, the host receives charging information transmitted from the mobile communication terminal through the RF reader, and externally charges a state of charge of a battery included in the mobile communication terminal according to the input charging information. Display.

It is to be understood that both the foregoing general description and the following detailed description are exemplary, and that additional explanations of the claimed invention are provided.

Reference numerals are shown in detail in preferred embodiments of the invention, examples of which are shown in the reference figures. In any case, like reference numerals are used in the description and the drawings to refer to the same or like parts.

Hereinafter, a mobile communication terminal is used as an example for explaining the features and functions of the present invention. However, one of ordinary skill in the art will readily appreciate the other advantages and performances of the present invention in accordance with the teachings herein, and the present invention may also be implemented or applied through other embodiments. In addition, the detailed description may be modified or changed according to aspects and applications without departing from the scope, technical spirit and other objects of the present invention.

1 is a block diagram schematically illustrating a mobile communication terminal according to the present invention.

Referring to FIG. 1, a mobile communication terminal according to the present invention includes a terminal body 100 and a battery pack 200.

The terminal body 100 includes a CPU 120 (Central Processing Unit) 120 and a SIM card 110. Although not shown in the drawing, the terminal body 100 may include additional components required for operation.

The CPU 120 controls the overall operation of the terminal main body 100, and processes and reproduces video, audio, text data, and the like. For example, the CPU 120 may read and play multimedia data such as voice and video stored in the SIM card 110.

The SIM card 110 is inserted into a SIM card slot (not shown) embedded in the terminal body 100. The SIM card 110 may not only store subscriber information but also store a large amount of multimedia data according to the capacity increase.

The battery pack 200 of the mobile communication terminal includes an RF antenna 210 and a battery cell 220.

The RF antenna 210 is used for the SIM card 110 to perform wireless communication. The RF antenna 210 is located inside the battery pack 200. The RF antenna 210 may be built in the terminal body 100 as well as the battery pack 200.

Six of the eight terminals (not shown) of the SIM card 110 are physically connected to the terminal body 100. The remaining two terminals are physically connected to the RF antenna 210 for the SIM card embedded in the terminal body 100.

The RF antenna 210 may be located at the edge of the battery pack 200. The SIM card 110 exchanges data wirelessly with an RF reader (not shown) through the RF antenna 210.

In the battery cell 220, electrical energy is converted into chemical energy and stored. Lithium ion polymer or nickel hydrogen may be used as a material constituting the battery cell 220.

2 is a block diagram showing a data transmission and charging process of a mobile communication terminal according to the present invention.

The RF reader 300 includes a transmitter 320, a receiver 330, an antenna 310, and a transmission / reception control unit 340.

In order to read the data stored in the SIM card 110, the RF reader 300 must make a data transmission request to the SIM card 110. This request is made by the transmit request signal.

The transmission / reception control unit 340 generates a transmission request signal.

The transmission request signal is modulated into a control signal having a predetermined amount of energy by the transmitter 320 in the RF reader 300 and propagated in the air in the form of electromagnetic waves. As a result, the control signal consists of a transmission request signal and energy.

When the mobile communication terminal is within a predetermined range of the RF reader 300, a control signal is received by the RF antenna 210 embedded in the battery pack 200 of the mobile communication terminal. The transmission request signal and the energy of the control signal are transmitted to the SIM card 110.

The SIM card 110 propagates data or charging information stored in the SIM card 110 in the air through the RF antenna 210 in response to the transmission request signal. The propagated data is received by the antenna 310 of the RF reader 300.

The received data is transmitted to the host 400 (eg, a personal computer, etc.) through the receiver 330 and the transceiver controller 340 in the RF reader 300. In the receiver 330, the signal received by the antenna 310 is demodulated.

The data transferred to the host 400 may be processed by the processor 420 and output by the display 410 or a separate output device not shown in the drawing. For example, the host 400 may edit or play the video or audio information received from the SIM card 110. Alternatively, the host outputs charging information received from the SIM card 110 so that the user can check the current charging state of the battery.

The RF reader 300 and the host 400 may be configured as separate devices or included in one device.

The energy of the control signal received by the terminal body 100 is rectified by the SIM card 110 and supplied to the battery cell 220. Although not shown in the drawing, the SIM card 110 includes a rectifying unit that converts AC energy into DC energy.

The electrical energy of the rectified control signal is stored in the form of chemical energy in the battery cell 220.

As described above, at the same time as reading data from the SIM card 110 using the RF reader 300, the battery pack 200 of the mobile communication terminal can be charged in a non-contact manner.

In this embodiment, the mobile terminal, RF reader, and host will constitute a communication system.

3 is a block diagram showing another embodiment of a mobile communication terminal according to the present invention.

Referring to FIG. 3, the battery pack 500 of the mobile communication terminal according to the present invention further includes a rectifying unit 520. The rectifier 520 converts the energy of the control signal received through the RF antenna 210 from AC to DC.

In the embodiment shown in FIG. 1, the energy of the control signal received through the RF antenna 210 is rectified by the SIM card 110 and transferred to the battery cell 220.

On the other hand, in the embodiment shown in FIG. 3, the energy of the control signal received through the RF antenna 510 is rectified by the rectifier 520 built in the battery pack 500 and transferred to the battery cell 530.

Therefore, the energy of the control signal can charge the battery cell 530 without passing through the SIM card 110.

In summary, the RF reader 300 may charge the battery pack 500 of the mobile communication terminal by rectifying the energy of electromagnetic waves emitted into the air in the battery pack 500.

It will be apparent to those skilled in the art that the structure of the present invention may be variously modified or changed without departing from the scope or spirit of the present invention. In view of the foregoing, it is believed that the present invention includes modifications and variations of this invention provided they come within the scope of the following claims and their equivalents.

As described above, by charging the battery of the mobile communication terminal wirelessly, it is possible to charge the battery more conveniently and stably than the contact charging method.

Claims (13)

delete An antenna for receiving a control signal from the outside; A SIM card for rectifying the energy of the control signal received from the antenna; And A battery charged by the rectified energy, The control signal is used to request the output of the data stored in the SIM card. The method of claim 2, The antenna is included in the edge of the battery terminal. delete An antenna for receiving a control signal from the outside; A SIM card communicating via the antenna; A rectifier for rectifying the energy of the control signal received from the antenna; And A battery charged by the rectified energy, The control signal is used to request to output the data stored by the SIM card. The method of claim 5, wherein The antenna is included in the edge of the battery terminal. The method of claim 5, wherein The rectifier is included in the battery. delete In the battery charging method of a mobile communication terminal comprising a SIM card and a battery, Receiving an RF control signal; Rectifying the energy of the received RF control signal; And Charging the battery with the rectified energy; The control signal is used to request an output of data stored by the SIM card. The method of claim 9, The RF control signal is rectified by the SIM card. The method of claim 9, And the RF control signal is rectified by a rectifier built in the battery. A mobile communication terminal; An RF reader configured to communicate with the mobile communication terminal; And And a host configured to process data transmitted and received through the RF reader, wherein the mobile communication terminal is defined in claim 2. The method of claim 12, The host receives the charging information transmitted from the mobile communication terminal through the RF reader, and displays the charging state of the battery included in the mobile communication terminal to the outside according to the input charging information. .

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